Improved Machinability - This plate offers better machinability than commercially produced stainless steel plate.
Hot Rolled, Annealed and Pickled
A.S.T.M. A240/A480
A.S.T.M. A262 Prac E
ASME SA-240
Items |
304L-250-96 Stainless Steel Plate - Type 304L |
304L-313-96 Stainless Steel Plate - Type 304L |
304L-375-96 Stainless Steel Plate - Type 304L |
304L-500-96 Stainless Steel Plate - Type 304L |
304L-625-96 Stainless Steel Plate - Type 304L |
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Material | N/A Type 304L Stainless Steel | |||||||||
Shapeform | N/A Plates | |||||||||
Thickness | N/A 1/4 inches | N/A 5/16 inches | N/A 3/8 inches | N/A 1/2 inches | N/A 5/8 inches | |||||
Thickness | N/A 0.25 inches6.3500 mm | N/A 0.313 inches7.9502 mm | N/A 0.375 inches9.5250 mm | N/A 0.500 inches12.7 mm | N/A 0.625 inches15.875 mm | |||||
Size | N/A 96.00 inches | |||||||||
Plate Weight per Unit Area | N/A 11.162 lbs/ft²54.492884 kg/m² | N/A 13.746 lbs/ft²67.107972 kg/m² | N/A 16.496 lbs/ft²80.533472 kg/m² | N/A 21.663 lbs/ft²105.758766 kg/m² | N/A 26.831 lbs/ft²130.988942 kg/m² | |||||
Finish | N/A No. 2B | |||||||||
Condition | N/A Hot Rolled Annealed Pickled | |||||||||
Nominal Composition | N/A 0 to 0.25% Carbon 1.00% Max. Silicon 2.00% Max. Manganese 6 to 36% Nickel 7 to 30% Chrome | |||||||||
ASTM Specification | N/A ASME SA-240 ASTM A240 ASTM A262 Prac E ASTM A480 UNS S30403 | |||||||||
Steel Alloy Group | N/A Austenitic | |||||||||
Magnetic Properties | N/A Non-Magnetic | |||||||||
Harden By | N/A Cold Work | |||||||||
Corrosion Resistance | N/A High | |||||||||
Hardness | N/A Low to Med. | |||||||||
Strength | N/A Low to Med. | |||||||||
Ductility | N/A High | |||||||||
Toughness | N/A High | |||||||||
Elec. Conductance | N/A Low | |||||||||
Thermal Conductance | N/A Low | |||||||||
Thermal Expansion | N/A High | |||||||||
Heat Resistance (Scaling Strength) | N/A High/High | |||||||||
Yield Strength | N/A 46000 lbs/in² | |||||||||
Tensile Strength | N/A 98000 lbs/in² | |||||||||
Elongation percent in 2 inches | N/A 55 % | |||||||||
Hardness (Rockwell B) | N/A 86 | |||||||||
Creep Strength Load for 10000 Hr. with 1% Elongation at 1000°F | N/A 17000 lbs/in² | |||||||||
Creep Strength Load for 10000 Hr. with 1% Elongation at 1100°F | N/A 12000 lbs/in² | |||||||||
Creep Strength Load for 10000 Hr. with 1% Elongation at 1200°F | N/A 7000 lbs/in² | |||||||||
Creep Strength Load for 10000 Hr. with 1% Elongation at 1300°F | N/A 4000 lbs/in² | |||||||||
Density | N/A 0.29 lbs/in³ | |||||||||
Modulus of Elasticity in Tension | N/A 28.0 x 106 lbs/in² | |||||||||
Specific Heat (32 to 212°F) | N/A 0.12 BTU/ºF/lbs | |||||||||
Thermal Conductivity at 212°F | N/A 9.4 BTU/hr.ft²/ft/ºF | |||||||||
Thermal Conductivity at 932°F | N/A 12.4 BTU/hr.ft²/ft/ºF | |||||||||
Mean Coefficient of Thermal Expansion per °F (32 to 212°F) | N/A 9.6 x 10-6 ºF | |||||||||
Mean Coefficient of Thermal Expansion per °F (32 to 600°F) | N/A 9.9 x 10-6 ºF | |||||||||
Mean Coefficient of Thermal Expansion per °F (32 to 1000°F) | N/A 10.2 x 10-6 ºF | |||||||||
Mean Coefficient of Thermal Expansion per °F (32 to 1200°F) | N/A 10.4 x 10-6 ºF | |||||||||
Melting Point Range | N/A 2550 to 2650 ºF | |||||||||
Electrical Resistivity | N/A 72 µΩ.cm | |||||||||
Max. Operating Temp. (Continuous Service) | N/A 1650 ºF | |||||||||
Max. Operating Temp. (Intermittent Service) | N/A 1500 ºF | |||||||||
Welding Properties | N/A Excellent | |||||||||
Drawing and Stamping | N/A Good | |||||||||
Hot Working - Initial Forging | N/A 2100 to 2300 ºF | |||||||||
Annealing Temp. | N/A 1850 to 2050 ºF | |||||||||
Stress Relieving Temp. | N/A 400 to 750 ºF | |||||||||
Applications |
N/A
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